Monitoring the leaf water content and specific leaf weight of cotton (Gossypium hirsutum L.) in saline soil using leaf spectral reflectance

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• 作者：Lei Zhang ; Zhiguo Zhou ; ^{giscott@njau.edu.cn} ; Guowei Zhang ; Yali Meng ; Binglin Chen ; Youhua Wang
• 关键词：EWT ; equivalent water thickness (g  ; cm&minus ; 2) ; FMC ; fuel moisture content (g  ; g&minus ; 1 DW) ; SLW ; specific leaf weight (g  ; cm&minus ; 2) ; NIR ; near-infrared ; SWIR ; short-wave infrared regions ; NDSI ; normalized difference spectral indices ; RSI
• 刊名：European Journal of Agronomy
• 出版年：2012
• 出版时间：August, 2012
• 年：2012
• 卷：41
• 期：Complete
• 页码：103-117
• 全文大小：2524 K

文摘

The objectives of the present study are to determine the relationships of equivalent water thickness (EWT), fuel moisture content (FMC) and specific leaf weight (SLW) of cotton leaves with leaf spectra reflectance, and to find sensitive spectral bands and best spectral indices to establish quantitative models for the quick and accurate estimation of EWT, FMC and SLW in cotton plants under different salinity levels. Plot experiments were conducted at different levels of salinity and cotton cultivars during three consecutive growing seasons. Time-course measurements of the leaf spectral reflectance, leaf fresh weight, leaf dry weight, leaf area, and leaf ion content of cotton were recorded under various treatments. Then, the normalized difference spectral indices (NDSI) and ratio spectral indices (RSI) based on the leaf spectrum were obtained within 350-2500 nm, and their correlation with EWT, FMC and SLW were quantified. The results show that the EWT, FMC and SLW of cotton leaves increased with increasing soil salinity levels and that the changes in leaf spectral reflectance under varied salinity levels are highly significant, with consistent patterns across the two cultivars tested. As the soil salinity levels increased, the Na⁺, Cl^{?/sup>, and SO₄2?/sup> content in the cotton leaves increased, whereas K+ and Ca2+ decreased at the same growth stage. In addition, the relationships among ion content, EWT, FMC and SLW were significant (P < 0.01). The sensitive spectral bands for EWT, FMC and SLW occurred mainly within the near infrared (NIR) and short-wave infrared (SWIR) ranges. The best spectral indices for estimating EWT, FMC and SLW in cotton were found to be NDSI (R₁₃₄₇, R₂₃₀₇), RSI (R₂₃₀₇, R₁₃₄₇); NDSI (R₁₆₅₀, R₁₈₀₁), RSI (R₁₈₀₁, R₁₆₅₀); NDSI (R₁₃₀₀, R₂₃₀₈), RSI (R₂₃₀₇, R₁₃₄₇) and 1650/2220 nm ratio, and the regression models based on the above spectral indices were identified as the best equations for the effective estimation of EWT and SLW in cotton. After testing these derived equations, the models for EWT and SLW estimation based on NDSI and RSI yielded an R2 of over 0.73, with more satisfactory performance under different ecological conditions, but the estimated accuracies of FMC models were very low and may not be suitable for estimating vegetation water content in saline conditions from leaf-level reflectance. The high fit between the measured and estimated values indicates that the EWT and SLW models based on new spectral indices from leaf-level reflectance could be used for the indirect estimation of plant salinity status by monitoring the changes in EWT and SLW caused by soil salinity in cotton plants.}